Clinical Interests:
Peter Hsiue is a fellowship-trained UCI Health orthopaedic surgeon who specializes in hip and knee joint replacements as well as complex and revision joint replacements. He strongly believes in a patient-centered approach which allows for treatment plans that are tailored to each patients’ specific lifestyle goals. Dr. Hsiue has extensive experience with modern joint replacement techniques including minimally invasive surgical approaches, robotic-assisted and/or computer-navigated joint replacements, patient-specific knee replacements, and partial knee replacements. He is also highly trained in complex and revision hip and knee reconstruction techniques which are sometimes required for patients with unique anatomy or failed hip and knee replacements.
Dr. Hsiue earned his medical degree from the David Geffen School of Medicine at UCLA where he was elected to the prestigious Alpha Omega Alpha medical honor society for his academic excellence as well as the Gold Humanism Honor Society for his compassionate care. He then completed his orthopaedic surgery residency at the David Geffen School of Medicine at UCLA followed by fellowship training in hip and knee replacements at the world-renowned Hospital for Special Surgery which is consistently ranked as the best orthopaedic surgery hospital in the nation.
Research Interests:
Dr. Hsiue has published over 35 peer-reviewed articles and book chapters in the field of hip and knee replacements. He has been invited to present his research at national and regional meetings at the American Academy of Orthopaedic Surgeons, American Association of Hip and Knee Surgeons, and Western Orthoapedic Association. During his training, Dr. Hsiue was selected as one of two National Institute of Health T32 Musculoskeletal Research Fellows to investigate novel strategies to prevent and treat patients with periprosthetic joint infections. Dr. Hsiue’s research interests include technology-assisted hip and knee replacements, clinical outcomes after complex and revision joint replacements, and medical device design and innovation.